Wave Concept Iterative Procedure Analysis of Patch Antennas on Nanostructured Ceramic Substrates
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Abstract
The wave concept iterative procedure (WCIP) is proposed to analyze rectangular and circular patch antennas on nanostructured ceramic substrates. Principles of WCIP are described and advantages are emphasized. The analysis of microstrip antennas on double layered substrates is performed in space and spectral domains. In addition, Fast Fourier Transformation (FFT) is used to improve the efficiency of the method. WCIP simulated results are compared to HFSS software ones. A good agreement is observed.
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References
R. S. N'Gongo and H. Baudrand, "Application of Wave Concept Iterative Procedure in planar circuits," Recent Res. Devel. Microwave Theory and Technique, vol. 1, pp. 187-197, 1999.
M. Titaouine, A. Gomes Neto, H. Baudrand, and F. Djahli, "Analysis of frequency selective surface on isotropic/anisotropic layer using WCIP method", ETRI Journal, vol.29, no. 1, pp.36 – 44, 2007.
H. Meganafi, N. Boruklin-Hacene, H. Baudrand, N. Raveu, and I. Allam, "A Monolayer passive structure analysis by WCIP method", Sciences of Electronics, Technologies of Informatique and Telecomunications, SETIT–IEEE, 2012.
F. S. Chute and G. B. Walker, "Suitability of Ni-Zn ferrites ceramics with controlled porosity as granular substrates for mobile handset miniaturized antennas", IEEE Transactions on Magnetics, vol. 47, n. 10, pp. 3720-3723, 2011.
Solution combustion synthesis of Cu nanoparticles: a role of oxidant-to-fuel ratio", IET Micro & Nano Letters, pp. 812-815, 2011.
N'Gongo S. Rufin, "Electromagnetic modeling of planar circuits, applied to the influence of box (in French)", PhD Tesis, ENSEEIHT, Toulouse, 1999.
N. Raveu, G. Prigent, T. Callegari, H. Baudrand, "WCIP applied to active plasma circuits", Progress In Electromagnetic Research Letters, vol. 21, pp. 89 – 98, 2011.
E.E.C. Oliveira, A.G.D'Assunção, J.B.L. Oliveira, A.M. Cabral, "Small size rectangular DRA antenna dual-band based in calcium titanate", Microwave and Optical Technology Letters, vol. 54, pp.976-979, 2012.
R. Carneiro Filho, J. H. Araújo, M. F. Ginani, A. G. d'Assunção Jr, R. A. Martins, A. G. d'Assunção, L. M. Mendonça, "Simulation and measurement of inset-fed microstrip patch antennas on BiNbO4 substrates", Microwave and Optical Technology Letters, vol. 52, pp.1034-1036, 2010.